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参数资料
| 型号: | MAX8795AETJ+C7P |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 21/31页 |
| 文件大小: | 0K |
| 描述: | IC TFT-LCD DC/DC CONV 32-TQFN |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 60 |
| 应用: | 转换器,TFT,LCD |
| 输入电压: | 2.5 V ~ 6 V |
| 输出数: | 8 |
| 输出电压: | 2.5 V ~ 18 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 32-WFQFN 裸露焊盘 |
| 供应商设备封装: | 32-TQFN-EP(5x5) |
| 包装: | 管件 |
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��
�
�TFT-LCD� DC-DC� Converter� with�
�Operational� Amplifiers�
�L� =� ?�
�?� ≈� 3� .� 3� μ� H�
�?� 5� V� ?� 2� ?� 14� V� ?� 5� V� ?� ?� 0� .� 85� ?�
�?� 14� V� ?� ?� 0� .� 5� A� � 1� .� 2� MHz� ?� ?� 0� .� 5� ?�
�a typical input voltage of 5V. Choosing an LIR of 0.5 and�
�estimating� efficiency� of� 85%� at� this� operating� point:�
�?� ?� ?� ?�
�Using� the� circuit’s� minimum� input� voltage� (4.5V)� and�
�estimating� efficiency� of� 80%� at� that� operating� point:�
�be� tolerated� on� C� IN� if� IN� is� decoupled� from� C� IN� using� an�
�RC� lowpass� filter� (see� R10� and� C13� in� Figure� 1).�
�Rectifier� Diode�
�The� MAX8795A’s� high� switching� frequency� demands� a�
�high-speed� rectifier.� Schottky� diodes� are� recommended�
�for� most� applications� because� of� their� fast� recovery� time�
�and� low� forward� voltage.� In� general,� a� 2A� Schottky�
�,�
�I� IN� (� DCMAX� )� =�
�0.5A� � 14V�
�4� .� 5� V� � 0� .� 8�
�≈� 1� .� 94� A�
�diode� complements� the� internal� MOSFET� well.�
�Output-Voltage� Selection�
�I� RIPPLE� =�
�≈� 0� .� 77� A�
�I� PEAK� =� 1� .� 94� A� +� ≈� 2� .� 33� A�
�R� 1� =� R� 2� � ?� MAIN� ?� 1� ?�
�The ripple current and the peak current are:�
�4� .� 5� V� � (� 14� V� ?� 4� .� 5� V� )�
�3� .� 3� μ� H� ×� 14� V� ×� 1� .� 2� MHz�
�0� .� 77� A�
�2�
�Output-Capacitor� Selection�
�The� total� output� voltage� ripple� has� two� components:� the�
�capacitive� ripple� caused� by� the� charging� and� discharging�
�of� the� output� capacitance,� and� the� ohmic� ripple� due� to� the�
�capacitor’s� equivalent� series� resistance� (ESR):�
�V� RIPPLE� =� V� RIPPLE� (� C� )� +� V� RIPPLE� (� ESR� )�
�The� output� voltage� of� the� main� step-up� regulator� can� be�
�adjusted� by� connecting� a� resistive� voltage-divider� from� the�
�output� (V� MAIN� )� to� AGND� with� the� center� tap� connected� to�
�FB� (see� Figure� 1).� Select� R2� in� the� 10k� ?� to� 50k� ?� range.�
�Calculate� R1� with� the� following� equation:�
�?� V� ?�
�?� V� FB� ?�
�where� V� FB� ,� the� step-up� regulator’s� feedback� set� point,�
�is� 1.233V.� Place� R1� and� R2� close� to� the� IC.�
�Loop� Compensation�
�Choose� R� COMP� to� set� the� high-frequency� integrator�
�V� RIPPLE� (� C� )� ≈� MAIN� ?� MAIN� IN� ?�
�and� :�
�I� ?� V� ?� V� ?�
�C� OUT� ?� V� MAIN� f� OSC� ?�
�V� RIPPLE� (� ESR� )� ≈� I� PEAK� R� ESR� (� COUT� )�
�gain� for� fast� transient� response.� Choose� C� COMP� to� set�
�the� integrator� zero� to� maintain� loop� stability.�
�For� low-ESR� output� capacitors,� use� the� following� equa-�
�tions� to� obtain� stable� performance� and� good� transient�
�response:�
�where� I� RIPPLE� is� the� RIPPLE� inductor� current� (see� the�
�Inductor� Selection� section).� For� ceramic� capacitors,� the�
�output� voltage� ripple� is� typically� dominated� by�
�V� RIPPLE(C)� .� The� voltage� rating� and� temperature� charac-�
�teristics� of� the� output� capacitor� must� also� be� considered.�
�R� COMP� ≈�
�C� COMP� ≈�
�253� � V� IN� � V� OUT� � C� OUT�
�L� � I� MAIN� (� MAX� )�
�V� OUT� � C� OUT�
�10� � I� MAIN� (� MAX� )� � R� COMP�
�Input-Capacitor� Selection�
�The� input� capacitor� (C� IN� )� reduces� the� current� peaks�
�drawn� from� the� input� supply� and� reduces� noise� injection�
�into� the� IC.� A� 22μF� ceramic� capacitor� is� used� in� the� typi-�
�cal� applications� circuit� (Figure� 1)� because� of� the� high�
�source� impedance� seen� in� typical� lab� setups.� Actual�
�applications� usually� have� much� lower� source� impedance�
�since� the� step-up� regulator� often� runs� directly� from� the�
�output� of� another� regulated� supply.� Typically,� C� IN� can�
�be� reduced� below� the� values� used� in� the� typical� applica-�
�tions� circuit.� Ensure� a� low-noise� supply� at� IN� by� using�
�adequate� C� IN� .� Alternately,� greater� voltage� variation� can�
�To� further� optimize� transient� response,� vary� R� COMP� in�
�20%� steps� and� C� COMP� in� 50%� steps� while� observing�
�transient-response� waveforms.�
�Charge� Pumps�
�Selecting� the� Number� of� Charge-Pump� Stages�
�For� highest� efficiency,� always� choose� the� lowest� num-�
�ber� of� charge-pump� stages� that� meet� the� output�
�requirement.� Figures� 8� and� 9� show� the� positive� and�
�negative� charge-pump� output� voltages� for� a� given�
�V� MAIN� for� one-,� two-,� and� three-stage� charge� pumps.�
�______________________________________________________________________________________�
�21�
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